Optics and Telescopes Chapter Six.

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Presentation transcript:

Optics and Telescopes Chapter Six

Telescopes The fundamental purpose of any telescope is to gather more light than the naked eye can In many cases telescopes are used to produce images far brighter and sharper than the eye alone could ever record

A refracting telescope uses a lens to concentrate incoming light at a focus

How Light Beams Behave As a beam of light passes from one transparent medium into another—say, from air into glass, or from glass back into air—the direction of the light can change This phenomenon, called refraction, is caused by the change in the speed of light

Refracting Telescope & Magnification The magnification of a telescope is equal to the focal length of the objective divided by the focal length of the eyepiece

Magnification Magnification m, for an objective (lens or mirror) focal length, fo and an eyepiece focal length fe m = fo / fe For example: fo = 4 metres and fe = 10 mm yields m = fo / fe = 4000 / 10 = 400 x magnification

Light Gathering Power The light-gathering power of a telescope is directly proportional to the area of the objective lens, which in turn is proportional to the square of the lens diameter

Chromatic Aberration Lenses bend different colors of light through different angles, just as a prism does As a result, different colors do not focus at the same point, and stars viewed through a telescope that uses a simple lens are surrounded by fuzzy, rainbow-colored halos If the telescope designer carefully chooses two different kinds of glass for two lenses that make up the one, different colors of light can be brought to a focus at the same point

Yerkes Observatory Refractor

Glass impurities, chromatic aberration, opacity to certain wavelengths, and structural difficulties make it inadvisable to build extremely large refractors

A reflecting telescope uses a mirror to concentrate incoming light at a focus Reflecting telescopes, or reflectors, produce images by reflecting light rays to a focus point from curved mirrors. Reflectors are not subject to most of the problems that limit the useful size of refractors.

Reflecting Telescopes

Gemini North Telescope The 8.1-meter objective mirror The 1.0-meter secondary mirror The objective mirror

Spherical Aberration A spherical surface is easy to grind and polish, but different parts of a spherical mirror have slightly different focal lengths This results in a fuzzy image There are two solutions used by astronomers: Parabolic mirrors Correcting lenses

Diffraction is an intrinsic property of light waves. Telescope images are degraded by the blurring effects of the atmosphere and by light pollution Angular Resolution: A telescope’s angular resolution, which indicates ability to see fine details, is limited by many factors. Diffraction is an intrinsic property of light waves. Its effects can be minimized by using a larger objective lens or mirror and/or a smaller wavelength of observed light.

Diffraction limited angular resolution Θ = 2.5 x 105 λ / D where Θ is the angular resolution in seconds of arc λ is the wavelength of light in metres D is the diameter (of mirror or lens) in metres

Telescope images (continued) The blurring effects (seeing) of atmospheric turbulence can be minimized by placing the telescope atop a tall mountain with very smooth air. They can be dramatically reduced by the use of adaptive optics and can be eliminated entirely by placing the telescope in orbit

An electronic device is commonly used to record the image at a telescope’s focus Sensitive light detectors called charge coupled devices (CCDs) are often used at a telescope’s focus to record faint images.

Spectrographs record the spectra of astronomical objects A spectrograph uses a diffraction grating and lenses to form the spectrum of an astronomical object

A radio telescope uses a large concave dish to reflect radio waves to a focus Radio telescopes use large reflecting antennas or dishes to focus radio waves Very large dishes provide reasonably sharp radio images

Higher resolution is achieved with interferometry techniques that link smaller dishes together

Optical and Radio Views of Saturn

Telescopes in orbit around the Earth detect radiation that does not penetrate the atmosphere The Earth’s atmosphere absorbs much of the radiation that arrives from space The atmosphere is transparent chiefly in two wavelength ranges known as the optical window and the radio window A few wavelengths in the near-infrared also reach the ground

For observations at wavelengths to which the Earth’s atmosphere is opaque, astronomers depend on telescopes carried above the atmosphere by rockets or spacecraft

The Hubble Space Telescope

James Web Space telescope

Satellite-based observatories provide new information about the universe and permit coordinated observation of the sky at all wavelengths